Rolling your own analytics dashboard with InfluxDB, Grafana and Docker

For a pet project, I decided to build my own dashboard for charting and analysing time series metrics. There are lots of options out there for doing this. For data aggregation and querying, you can use Graphite, Prometheus, InfluxDB, OpenTSDB, Riak, DalmatinerDB and more. And for visualisation, there’s Graphite (again), Grafana, Kibana, Chronograf and others.

Figuring out which combination of tools to use can seem overwhelming at first, but you can narrow down the candidates a little by defining the problem. In my case, I had some time series carpark capacity data that I wanted to aggregate and chart and maybe run some predictive models on1. I only had a handful of metrics, so scale wasn’t that important. I also wanted to be able to get up and running as quickly as possible.

Given this, InfluxDB seemed like a good choice for data storage. With the exception of Prometheus, it had the most complete set of analysis functions available out of the box2. And, unlike Prometheus, it has a simple HTTP API for inserting and querying metrics3, which means you don’t have to go to the hassle of creating a Pushgateway to get started.

I decided to go with Grafana as a dashboard frontend, partially because it supports InfluxDB out of the box, but also because it appeared to be the most feature rich platform of all those I considered4. Its plugin ecosystem is also quite mature, and allows you to add extra functionality (like map widgets) easily.

Building the dashboard

As InfluxDB and Grafana are both published as official Docker images, it seemed natural to tie them together using Docker Compose. This way, I’d have a reusable base project to build future dashboards from. Integrating the services required some slight tweaking, but in the end I had a skeleton project that ran InfluxDB, connected Grafana to it and automatically deployed whatever data sources and dashboards I wanted.

The basic project setup looks like this:

├── configuration.env
├── docker-compose.yml
├── influxdb
│   ├── Dockerfile
│   └──
└── grafana
    ├── Dockerfile
    ├── datasources
    │  └── default.json
    └── dashboards
       └── ...

The files in the root directory define the service architecture (docker-compose.yml) and overall project configuration (configuration.env), while those in the influxdb and grafana subdirectories define the behaviour of the services themselves. The grafana/datasources directory holds a default JSON data source description (to connect to InfluxDB), although you can add others if you want to deploy them automatically on initialisation. The grafana/dashboards directory works the same way, although there aren’t any defaults here because dashboards are generally application-specific.


The configuration.env file defines environment variables that are shared amongst the containers by Docker Compose. Both InfluxDB and Grafana support configuration via environment variables, so this is a quick and convenient way to initialise service defaults.

At a minimum, you’ll need login credentials for InfluxDB and Grafana and a default InfluxDB database for Grafana to connect to, although this can be expanded upon as required. Something like this should do the trick:

# Grafana options

# InfluxDB options

Docker Compose

The service architecture is defined by the docker-compose.yml file in the root of the project. The exact structure will vary according to your deployment platform, but it doesn’t have to be complicated - here’s a minimal example:

version: '2'

    build: influxdb
    env_file: configuration.env
      - influxdb_data:/var/lib/influxdb
    build: grafana
    env_file: configuration.env
      - influxdb
      - '80:3000'
      - grafana_data:/var/lib/grafana

  grafana_data: {}
  influxdb_data: {}

The Compose file does a number of things:


Creating the InfluxDB container is pretty simple. InfluxDB is already available as an image on Docker Hub, so all you need to do is derive your image from this and make a few customisations. Here’s a sample Dockerfile:

FROM influxdb:1.0.1-alpine

RUN chmod u+x

ENTRYPOINT ["/app/"]

You might notice that the ENTRYPOINT here is set to run the shell script. This is a common design pattern for containers where you want to run some initialisation code before starting the main application. In this case, you’ll need the entrypoint script to wire InfluxDB so that the username and password you set in configuration.env are set as the default administrator credentials:

#!/usr/bin/env sh

if [ ! -f "/var/lib/influxdb/.init" ]; then
  exec influxd $@ &

  until wget -q "http://localhost:8086/ping" 2> /dev/null; do
    sleep 1

  influx -host=localhost -port=8086 \
    -execute="CREATE USER ${INFLUX_USER} " \
             "WITH ALL PRIVILEGES"

  touch "/var/lib/influxdb/.init"

  kill -s TERM %1

exec influxd $@

This deserves a little more explanation. First, the script checks whether the file /var/lib/influxdb/.init exists or not. If it does, great — we just start InfluxDB. If it doesn’t, then the script starts InfluxDB, waits for it to come online (using wget), sets the default administrator credentials and then creates the /var/lib/influxdb/.init file. This way, the administrator credentials are set the first time the container is started, but not on subsequent starts.


As Grafana also have an official image on Docker Hub, the image setup is similar to above:

FROM grafana/grafana:3.1.1

RUN apt-get update && \
    apt-get install -y \
        curl \
        gettext-base && \
    rm -rf /var/lib/apt/lists/*

COPY dashboards /etc/grafana/dashboards
COPY datasources /etc/grafana/datasources

RUN chmod u+x

ENTRYPOINT ["/app/"]

This Dockerfile is a little more complicated than before. First off, curl and envsubst are installed (they’re needed for the entrypoint shell script below). Next, the dashboards and data sources that you want Grafana to run by default are copied from your host OS into the container. In the skeleton project layout earlier, there’s a default data source and no dashboards, but at some point you’ll probably have more, at which point this feature will come in handy. Finally, the container entrypoint is set, in pretty much the same way as with the InfluxDB container.

The entrypoint script itself is also a little more complicated than before:

#!/usr/bin/env sh


post() {
    curl -s -X POST -d "$1" \
        -H 'Content-Type: application/json;charset=UTF-8' \
        "$url$2" 2> /dev/null

if [ ! -f "/var/lib/grafana/.init" ]; then
    exec / $@ &

    until curl -s "$url/api/datasources" 2> /dev/null; do
        sleep 1

    for datasource in /etc/grafana/datasources/*; do
        post "$(envsubst < $datasource)" "/api/datasources"

    for dashboard in /etc/grafana/dashboards/*; do
        post "$(cat $dashboard)" "/api/dashboards/db"

    touch "/var/lib/grafana/.init"

    kill $(pgrep grafana)

exec / $@

For readability, I defined a HTTP POST function at the top of the file. After this, the entrypoint works just like with InfluxDB: it checks for an initialisation file and runs some one-off setup commands if it’s not there. The setup code starts Grafana, waits for it to come online, and posts any data sources and dashboards that were included so that Grafana will run them by default.

Because the entrypoint script uses envsubst to parse the data source JSON files, you can use any environment variables you’ve defined in configuration.env in these. For instance, you can create a default data source (default.json in the skeleton project structure earlier) like this:

  "name": "$INFLUX_DB",
  "type": "influxdb",
  "url": "http://influxdb:8086",
  "access": "proxy",
  "user": "$INFLUX_USER",
  "password": "$INFLUX_PASSWORD",
  "database": "$INFLUX_DB",
  "basicAuth": false

Then, when Grafana is initialised, it will automatically create a data source for your default InfluxDB database. If you have dashboards that reference this data source, then you just need to include them in the grafana/dashboards directory before container initialisation5 and they’ll automatically get loaded too.

A live demo of the carpark capacity dashboard that I built using this skeleton framework is running at


Building your own analytics dashboard with Docker isn’t difficult, but it does take time to figure out how the services work and plan their integration. A fear of shell scripting probably won’t help either. That being said, once you have a base Compose application, you can reuse it across multiple different projects so, depending on your requirements, the investment in time may be worthwhile.

Despite the variety of InfluxQL queries and Grafana widgets, the combination of InfluxDB and Grafana for data analysis is pretty basic: all you get out of the box is the ability to chart and do (relatively) trivial analysis on metrics. The only predictive modelling function available in InfluxDB - Holt Winters forecasting - doesn’t seem ready for the real world just yet6 and Grafana lacks the variety of chart types and the depth of customisation available in R, matplotlib and D3. Still, for a small investment in time, you do get a simple, scalable, secure(-able), generally production-ready system. Gluing together bits of scripts to plot your linear regressions somehow seems less attractive.

  1. The finished product is in action at

  2. You can get even more advanced functionality with the Kapacitor add on. 

  3. There’s also good library support in multiple languages

  4. As Kibana only supports Elasticsearch as a backend, it was never really a contender to begin with. 

  5. Of course, you can always just add them manually through the HTTP API or through the UI

  6. For something more advanced, it’s probably worth considering adding a Kapacitor service with some user defined functions or just biting the bullet entirely and running your analysis jobs in Spark.